Back مسار زائدي Arabic Trajectòria hiperbòlica Catalan Trayectoria hiperbólica Spanish مسیر هذلولی Persian Hyperbelirata Finnish Trajectoire hyperbolique French Traiettoria iperbolica Italian 双曲線軌道 Japanese 쌍곡선 궤도 Korean Orbita hiperboliczna Polish

Hyperbolic trajectory

The blue path in this image is an example of a hyperbolic trajectory with an orbital eccentricity, e, greater than one
A hyperbolic trajectory is depicted in the bottom-right quadrant of this diagram, where the gravitational potential well of the central mass shows potential energy, and the kinetic energy of the hyperbolic trajectory is shown in red. The height of the kinetic energy decreases as the speed decreases and distance increases according to Kepler's laws. The part of the kinetic energy that remains above zero total energy is that associated with the hyperbolic excess velocity.
Part of a series on
Astrodynamics
Orbital elements
Types of two-body orbits by
eccentricity
Equations
Gravitational influences
N-body orbits
Preflight engineering
Efficiency measures
Propulsive maneuvers

In astrodynamics or celestial mechanics, a hyperbolic trajectory or hyperbolic orbit (from Newtonian theory: hyperbola shape) is the trajectory of any object around a central body with enough velocity to escape the central object's gravitational field; expressed as orbital eccentricity designated by any number more than 1.

Under simplistic assumptions a body traveling along this trajectory will coast towards infinity, settling to a final excess velocity relative to the central body. Similarly to parabolic trajectories, all hyperbolic trajectories are also escape trajectories. The specific energy of a hyperbolic trajectory orbit is positive.

Planetary flybys, used for gravitational slingshots, can be described within the planet's sphere of influence using hyperbolic trajectories.

From Wikipedia, the free encyclopedia · View on Wikipedia

Developed by Nelliwinne